双酰肼类昆虫生长调节剂的抗药性研究进展

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英文篇名：Research Progress on the Resistance of Diacylhydrazines Insect Growth Regulators 作者：刘秀 ; 王宏昆 ; 陈红军 ; 席涵 ; 李静波 ; 金晨钟 英文作者：LIU Xiu;WANG Hong-kun;CHEN Hong-jun;XI Han;LI Jing-bo;JIN Chen-zhong;Hunan University of Humanities Science and Technology Key Laboratory of Pesticide Harmless Application, Collaborative Innovation Center for Field Weeds Control(CICFWC) of Hunan Province;Hunan University of Humanities Science and Technology Hunan Provincial Key Laboratory of Fine Ceramics and Powder Materials; 关键词：作用机理 ; 选择性 ; 抗性 ; 抗性机理 ; 对策 英文关键词：mechanism of action;;selectivity;;resistance;;resistance mechanism;;countermeasures 中文刊名：NYZZ 英文刊名：Agrochemicals 机构：湖南人文科技学院湖南省农药无害化应用重点实验室农田杂草防控技术与应用协同创新中心;湖南人文科技学院湖南省精细陶瓷与粉体材料重点实验室; 出版日期：2018-07-10 出版单位：农药 年：2018 期：v.57 基金：国家自然科学基金青年基金(31401789);; 湖南省自然科学基金(2015JJ6047);; 湖南省教育厅重点实验室创新平台开放基金(14K052) 语种：中文; 页：NYZZ201807001 页数：5 CN：07 ISSN：21-1210/TQ 分类号：4-7+15

摘要

双酰肼类杀虫剂是一类高效、环保、低毒的新型昆虫生长调节剂。简要介绍了双酰肼类杀虫剂的发展历程,重点概述了其作用机理、选择性、抗药性机理研究现状,并提出了预防和治理抗药性的措施。
        Diacylhydrazines insect growth regulators(IGRs) have unique advantages such as high efficiency,environmental protection and low toxicity.The development process of diacylhydrazines was briefly introduced.The mechanism of action,selectivity,and the resistance and its mechanism were also discussed.Some management measures to prevent and control resistance were put forward.

引文

[1]陈浩,林拥军,张启发.转基因水稻研究的回顾与展望[J].科学通报,2009(18):2699-2717.
    [2]朱祯.转基因水稻研发进展[J].中国农业科技导报,2010,12(2):9-16.
    [3]芮昌辉,刘娟,任龙.昆虫生长调节剂的毒理机制与抗药性研究进展[J].生物安全学报,2012,21(3):177-183.
    [4]王彦华,王鸣华.昆虫生长调节剂的研究进展[J].世界农药,2007,29(1):8-11.
    [5]刘娟,董利霞,谭晓伟,等.棉铃虫对甲氧虫酰肼抗性机理的初步研究[J].农药学学报,2011,13(1):87-90.
    [6]贾变桃.双酰基肼类昆虫生长调节剂的作用机理及抗药性研究进展[J].现代农药,2008,7(4):9-13.
    [7]徐志红,李俊凯.双酰肼类昆虫生长调节剂的研究进展[J].江苏农业科学,2015,43(3):5-10.
    [8]刘永杰,沈晋良,马海芹.酰基肼类杀虫剂毒理机制与抗药性研究进展[J].山东农业大学学报(自然科学版),2004,35(4):629-632.
    [9]张一宾.世界农药新进展[M].北京:化学工业出版社,2007:17-17.
    [10]张湘宁.新型昆虫生长调节剂——呋喃虫酰肼[J].世界农药,2005(4):48-49.
    [11]刘长令,钟滨,李正名.以天然产物为先导化合物开发的农药品种(Ⅱ)——杀虫杀螨剂[J].农药,2003,42(12):1-8.
    [12]LIU Xiu,ZHANG Ling,TAN Jin-guo,et al.Design and Synthesis of N-Alkyl-N′-substituted 2,4-Dioxo-3,4-dihydropyrimidin-1-diacylhydrazine Derivatives as Ecdysone Receptor Agonist[J].Bioorganic&Medicinal Chemistry,2013,21(15):4687-4697.
    [13]IGA M,SMAGGHE G.Identification and Expression Profile of Halloween Genes involved in Ecdysteroid Biosynthesis in Spodoptera littoralis[J].Peptides,2010,31(3):456-467.
    [14]MOSALLANEJAD H,BADISCO L,SWEVERS L,et al.Ecdysone Signaling and Transcript Signature in Drosophila Cells Resistant against Methoxyfenozide[J].Journal of Insect Physiology,2010,56(12):1973-1985.
    [15]TOHIDIESFAHANI D,GRAHAM L D,HANNAN G N,et al.An Ecdysone Receptor from the Pentatomomorphan,Nezara viridula,Shows Similar Affinities for Moulting Hormones Makisterone A and 20-Hydroxyecdysone[J].Insect Biochemistry and Molecular Biology,2011,41(2):77-89.
    [16]刘永杰,徐蓬军,李艳伟,等.昆虫蜕皮激素受体及其类似物的杀虫机制研究进展[J].昆虫学报,2007,50(1):67-73.
    [17]任龙.甲氧虫酰肼的杀虫分子机理及抗药性研究进展[C].植保科技创新与病虫防控专业化——中国植物保护学会2011年学术年会论文集.中国植物保护学会,2011.
    [18]DHADIALLA T S,CARLSON G R,LE D P.New Insecticides with Ecdysteroidal and Juvenile Hormone Activity[J].Annual Review of Entomology,1998,43(43):545-569.
    [19]GUY S,DANNY D.Action of a Novel Nonsteroidal Ecdysteroid Mimic,Tebufenozide(RH 5992),on Insects of Different Orders[J].Pest Management Science,1994,42(2):85-92.
    [20]杜育哲,刘安西.非甾醇蜕皮激素类杀虫剂的研究进展[J].农药,2002,41(6):7-11.
    [21]何秀玲.害虫抗药性研究与治理状况概述[J].世界农药,2013,35(5):34-38.
    [22]MOTA-SANCHEZ D,WHALON M E,BAKER M,et al.Geographic Variation in the Colorado Potato Beetle Resistance to Imidacloprid[C].Entomological Society of America Meeting,2011.
    [23]REHAN A,FREED S.Resistance Selection,Mechanism and Stability of Spodoptera litura,(Lepidoptera:Noctuidae)to Methoxyfenozide[J].Pesticide Biochemistry&Physiology,2014,110(1):7-12.
    [24]刘娟,芮昌辉,范贤林,等.棉铃虫对甲氧虫酰肼的抗性遗传力[J].植物保护学报,2009,36(4):349-353.
    [25]SHAH R M,SHAD S A,ABBAS N.Methoxyfenozide Resistance of House Fly,Musca domestica L.(Diptera:Muscidae):Cross-resistance Patterns,Stability and Associated Fitness Costs[J].Pest Management Science,2017,73(1):254-261.
    [26]赵琪,闫乾,郑宇,等.甜菜夜蛾对甲氧虫酰肼抗药性选育及其抗性生化机理初探[J].应用昆虫学报,2012,49(6):1448-1453.
    [27]殷茜,钱路,曹广春,等.小菜蛾阿维菌素和虫酰肼抗性品系对几种新型药剂的交互抗性研究[J].南京农业大学学报,2010,33(5):60-64.
    [28]SHAH R M,ABBAS N,SHAD S A.Assessment of Resistance Risk in Musca domestica L.(Diptera:Muscidae)to Methoxyfenozide[J].Acta Tropica,2015,149:32-37.
    [29]SUN Jing-yan,LIANG Pei,GAO Xi-wu.Cross-resistance Patterns and Fitness in Fufenozide-resistant Diamondback Moth,Plutella xylostella(Lepidoptera:Plutellidae)[J].Pest Management Science,2012,68(2):285-289.
    [30]刘娟,董利霞,谭晓伟,等.棉铃虫抗甲氧虫酰肼种群对12种杀虫剂的交互抗性[J].植物保护,2011,37(3):117-119.
    [31]方勇,周小毛,贤振华.甜菜夜蛾对甲氧虫酰肼的抗药性监测[J].农药研究与应用,2010(6):25-27.
    [32]CIVOLANI S,BOSELLI M,BUTTURINI A,et al.Assessment of Insecticide Resistance of Lobesia botrana(Lepidoptera:Tortricidae)in Emilia-romagna Region[J].Journal of Economic Entomology,2014,107(3):1245-1249.
    [33]章金明,张蓬军,黄芳,等.浙江菜区斜纹夜蛾对几类杀虫剂的敏感性[J].浙江农业学报,2014,26(1):110-116.
    [34]潘飞,秦双,严春雨,等.斜纹夜蛾对15种杀虫剂的抗药性监测[J].江西农业大学学报,2014(5):1042-1047.
    [35]徐希宝,张靖,芮昌辉.甲氧虫酰肼对不同抗性棉铃虫种群谷胱甘肽-S-转移酶活性和基因表达量的影响[J].昆虫学报,2014(12):1381-1388.
    [36]徐希宝,张靖,芮昌辉.沉默GSTs基因影响棉铃虫对甲氧虫酰肼的敏感性[J].植物保护,2015,41(2):49-54.
    [37]刘娟.棉铃虫对甲氧虫酰肼的抗药性遗传力及机理研究(硕士论文)[D].北京:中国农业科学院,2010.
    [38]王贻莲,司升云,汪钟信,等.虫酰肼对甜菜夜蛾六类酶活性的影响[J].植物保护,2010,36(2):102-104.
    [39]CAO Guang-chun,HAN Zhao-jun.Tebufenozide Resistance is Associated with Sex-linked Inheritance in Plutella xylostella[J].Insect Science,2015,22(2):235-242.
    [40]岳建苏,李晓娇,陈飞,等.昆虫抗药性的产生和治理[J].中国南方果树,2013,42(4):35-40.
    [41]何海龙.斜纹夜蛾抗药性及其防治措施研究[J].吉林农业,2013(2):113.
    [42]范胜平,周学强,阳爱民,等.甲氧虫酰肼和氯虫苯甲酰胺混配对甜菜夜蛾的增效作用及田间防效[J].湖南农业科学,2017(2):67-70.